Pulsed Electric Field (PEF) technology is a low cost, low energy process that applies high
voltage electric pulses to an algal slurry. These pulses rupture the algal cell walls, increasing the
availability of intracellular materials for downstream separation and extraction. The process is
in-line, and scalable to high volumes.
Using PEF treatment would help biorefiners simplify the processing ofalgae for biofuels and
accelerate downstream extraction processes. We calculate that PEF treatment would account
for about $0.10/gal. of the price of algae-derived biofuel, compared to about $1.75/gal. for
conventional drying.
Technology
Streamlining the extraction of oils from algal cells early in the biofuel manufacturing process
could yield substantial production cost savings. Presently, oil is liberated from algae/plankton
cells through drying and the use of solvents (such as hexane or methanol), or through freeze
drying and the use of supercritical CO2 for separation. These expensive extraction processes
contribute significantly to the high overall cost of producing biofuels.
Conventionally, after cultivating and harvesting, the algae is processed through a filter press,
then dried and extruded. According to Gieskes*, drying accounts for as much as 75% of the
total energy used in the extraction process. We calculate that the amount of energy within
the biofuel produced is only slightly greater than the amount of energy used by drying in the
extraction process. Thus, the net energy is just barely positive (15%)*. PEF processing applied
after filter pressing, where algae is 50% of the total flow, will likely eliminate the need for drying,
increasing the net energy yield five-fold or more.
Using PEF treatment, algal material (or other biomass) is pumped in a slurry through a
treatment chamber, where the material is subjected to short, high voltage pulses, typically 1
– 10 microseconds in length. The electric field from these pulses “electroporates” the cell wall,
rupturing it and causing the cell’s contents to flow into the surrounding solution. PEF processing
requires very short in-chamber treatment times, enabling very large throughputs in a continuous-
flow process. The PEF process has been proven in food disinfection and wastewater processing,
where it is in commercial use.
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Isocrysis algae PEF treated at DTI, Aug 2009.
Above: Control (live) cells. These cells are motile, and easier
to capture near a bubble (bottom-right of photo).
Below: PEF-treated electroporated cells, clumped and all
dead (non-motile). Nine of eleven cells are clearly lysed in
this view. Analysis found clear evidence of released biodiesel
compounds, such as methyl hexadecanoate.
*Gieskes, Thomas E. Algae Oil Extraction (Powerpoint Presentation), Organic Fuels
Holding, Inc., March 2008
Pulsed Electric Field Pre-Treatment of Algae for Oil Extraction
A typical PEF system consists of (1) a power supply to convert utility power to high voltage DC power, (2) a
high voltage pulse modulator to transform the DC power into short pulses for electroporation of the cells in
the slurry, and (3) a treatment chamber through which the slurry flows, and where the high voltage pulses
are applied.
Status
PEF pretreatment for algal biofuels is presently at a Technology Readiness Level (TRL) of 3, meaning its
basic effectiveness has been demonstrated, but not yet quantified. Initial experiments have clearly shown
that PEF lyses algal cells. In related applications, PEF processing has already achieved a TRL of 8, proof
that it can be implemented on a large scale, with consistent and predictable results. Furthermore, the
commercial-scale processes, hardware, and controls used in these related applications can be applied to
algal oil extraction.
The objective of current development efforts is to determine optimal PEF processing protocols, and how
best to integrate them with downstream extraction processes, so as to achieve the highest improvement
in extraction at the lowest cost. The value of the PEF process in lowering the cost of an existing process,
or significantly increasing a process yield, will be evaluated against the overall reduction in cost-per-gallon
of biofuel.
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Cutaway view of one-half of a PEF
treatment chamber, showing a single
treatment zone. The pulsed electric field is
applied to the fluid as it flows through the
treatment zone.
PEF treatment system for wastewater
treatment (pre-digestion). This system
is rated at 150 kW average power, and
produces pulses up to 40 kV, 500 A. It
processes 10,000 liters/hour of wastewater
sludge prior to anaerobic digestion.
Pulsed Electric Field Systems